LECTURE NOTES  University of Tokyo ST 2020

1. From Drude to quantum transport

Slides of Lecture

Videos

2. From free electrons to strong correlations

Slides of Lecture

3. From two dimensional electron gas (2DEG) to fractional quantum Hall effect (FQHE) and beyond

Slides of Lecture

 

LECTURE NOTES ST 2019

1) The Current Status of Technology & Moore's Law

1.1 Slides of Lecture
1.2 Extra Materials

2) Quantum Mechanics for Nanoelectronics
2.1 Slides of Lecture

3) Electron Transport on the Nanoscale
3.1 Slides of Lecture

4) Quantum Effects in Nanoelectronics
4.1 Slides of Lecture
4.2 Extra Materials

5) Nanotubes
5.1 Slides of Lecture

6) 2D Materials (Graphene & Beyond)
6.1 Slides of Lecture

7) Quantum Dots

8) Beyond CMOS-tronics

 

LECTURE NOTES WT 2017-18

1) Status modern electronics

 1.1 Slides of lecture

2) Basics of electronic materials

 2.1 Slides of lecture   

3) Quantum dots, Coulomb blockade, single electron transistors

 3.1 Slides of lecture

5) Spintronics and spin-orbit devices

 5.1 Slides of lecture

6) Valleytronics, orbitronics

 6.1 Slides of lecture

9) Molecular electronics

 9.1 Slides of lecture

10) Quantum Computing

 10.1. Goodies

 

LECTURE NOTES ST 2017

1) CMOS

 1.1 Slides of lecture

 1.2 Goodies

2) Electrons in Quantum Structures - 0D, 1D, 2D, 3D

 2.1 Slides of lecture for 2) and 3)

3) Length scales

4) Nanotubes

 4.1 Slides od lecture

5) 2D Materials (incl. graphene)

 5.1 Slides of lecture

6) Quantum capacitance

 6.1 Slides of lecture

7) Localization

 7.1 Slides of lecture

7.2 Goodies

8) Aharonov-Bohm effect

 8.1 Slides of lecture

9) Phase-transition transistors

 9.1 Slides of lecture

 9.2 Goodies

LECTURE NOTES WT 2016-17

 1. Josephson tunnel junctions

 1.1 Tunneling spectroscopy and BKT transition - 08-11-2016

 2. Graphene a) electronic properties

 2. Graphene 25-11-2016

 4. Oxide Heterostructures - 13-12-2016

 

LECTURE NOTES ST 2016

 Semiconductors - 2a introduction - 2016-04-05

 Semiconductors - 2b epitaxial growth of heterostructures, MBE, PLD - 2016-05-03

 Semiconductors - 2c electrons in quantum structures, 2016-05-24

 Semiconductors - 2d Quantum Hall Effects, 2016-06-14

 Semiconductors - 2f quantum dots, 2016-06-21

 Semiconductors - 2g lasers

 Semiconductors - 2h mesoscopic devices (e.g., SETs)

 Semiconductors - 2i high speed heterostructure devices

Recommended books for the lecture "Quantum Heterostructures I"

 

LECTURE NOTES ST 2015

 Chapter 1 - Nanotubes 2015-05-05

 Chapter 2 - Characterization on the Nanoscale 2015-05-19

 Chapter 3 - Noise 2015-06-09

 Chapter 4 - Mesoscopic Transport 2015-07-07

 Chapter 6 - Kondo Effect 2015-07-14

 Chapter 7 - Molecular Electronics 2015-07-21

 

LECTURE NOTES WT 2014-15

 Chapter 1 - Recaps

 Chapter 2 - Fermi Liquid Theory

 Chapter 3 - Hartree-Fock Model

 Chapter 4 - Density Functional Theory

 Chapter 5 - Hubbard Model

 Chapter 6 - DMFT

 Chapter 7 - Indirect Exchange

 

LECTURE NOTES ST 2014

 Chapter 1 Josephson tunnel junctions

 Chapter 1.1 Josephson Pi tunnel junctions

 Chapter 2 Graphene structural and electronic properties

 Chapter 3 Topological insulators

 Chapter 4 Oxide heterostructures

 

LECTURE NOTES ST 2013

 Notes 2a Semiconductor introduction

 Notes 2b epitaxial growth of heterostructures

 Notes 2c electrons in quantum structures

 Notes 2d Quantum Hall Effects

 Notes 2e localization

 Notes 2f quantum dots

 Notes 2g lasers

 Notes 2h mesoscopic devices

 Notes 2i high speed heterostructure devices